The performance of Single-Molecule Magnets(SMMs)can be enhanced by reducing quantum tunneling of magnetization(QTM),which can be achieved with the aid of strong magnetic exchange interactions and strong magnetic aniso...The performance of Single-Molecule Magnets(SMMs)can be enhanced by reducing quantum tunneling of magnetization(QTM),which can be achieved with the aid of strong magnetic exchange interactions and strong magnetic anisotropy.When 4d ions are mixed with 4f ions,the strong spin–orbit coupling and moderate ligand-field strength of 4d elements complement the highly anisotropic 4f ions,and the combined effect decreases the transverse anisotropy and stabilizes the magnetic easy axis,both of which are essential for lowering QTM.Despite their synthetic challenges,the unique electronic properties of 4d–4f systems make them promising candidates for designing advanced single-molecule magnets.Here,we report the synthesis,magnetic,and theoretical studies of five tetranuclear“butterfly-shaped”complexes of formulae[Ru^(Ⅲ)_(2)Ln^(Ⅲ)_(2)(OMe)_(2)(o-tol)_(4)(mdea)_(2)(NO_(3))_(2)](Ln=Gd(1-Gd),Tb(2-Tb),Dy(3-Dy),Ho(4-Ho),mdeaH2=N-methyldiethanolamine)and[Ru^(Ⅲ)_(2)Er^(Ⅲ)_(2)(OMe)_(2)(o-tol)6(mdea)_(2)]·2MeOH(5-Er).Complexes 2-Tb,4-Ho,and 5-Er are the first reported examples of Ru-4f complexes using these Ln^(Ⅲ)ions.DC magnetic susceptibility studies revealed an antiferromagnetic exchange interaction between the Ln^(Ⅲ)and Ru^(Ⅲ)metal ions in all complexes.Among the complexes reported,3-Dy and 4-Ho show out-of-phase susceptibility signals in the absence of an external magnetic field,while the remaining complexes exhibit field-induced slow relaxation of magnetization.These observations were attributed to the presence of an ideal crystal field combined with the strong exchange interaction exerted between the Ru^(Ⅲ)and Ln^(Ⅲ)ions in the complexes.Importantly,the 4-Ho is the first non-dysprosium Ru–Ln polynuclear complex to show zero-field SMM behavior.Detailed ab initio CASSCF+RASSI-SO+SINGLE_ANISO+POLY_ANISO and Density Functional Theory(DFT)calculations reveal that the magnitude of exchange interaction increases in the following order:1-Gd(−1.3 cm^(−1))<2-Tb(−1.8 cm^(−1))<3-Dy(−2.7 cm^(−1))<4-Ho(−2.8 cm^(−1))<5-Er(−4.0 cm^(−1)).The larger single-ion anisotropy of the DyⅢions in 3-Dy leads to the largest barrier of 101.8 cm^(−1)(146 K),which increases further to 111 cm^(−1)(158.7 K)when considering the exchange-coupled model,with the strong Ru⋯Ln exchange further quenching QTM effects.These results highlight the importance of strong magnetic exchange between 4d–4f(Ru^(Ⅲ)⋯Ln^(Ⅲ))ions in enhancing the SMM behavior of 4d–4f complexes.展开更多
The synthesis of three new tetranuclear heterometallic Co^(Ⅲ)–Dy^(Ⅲ)planar butterfly coordination complexes is reported of molecular formulae[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(teaH)_(2)(acac)_(6)]·MeCN(3),[Dy_(2...The synthesis of three new tetranuclear heterometallic Co^(Ⅲ)–Dy^(Ⅲ)planar butterfly coordination complexes is reported of molecular formulae[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(teaH)_(2)(acac)_(6)]·MeCN(3),[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(bdea)_(2)(acac)_(6)]·2H_(2)O(4)and[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(edea)_(2)(acac)_(6)]·2H_(2)O·4MeCN(5)(teaH_(3)=triethanolamine,bdeaH_(2)=N-n-butyldiethanolamine,edeaH_(2)=N-ethyldiethanolamine and acacH=acetylacetone)each of which display singlemolecule magnet(SMM)behaviour.Importantly these new compounds are related to several{Co_(2)^(Ⅲ)Dy_(2)^(Ⅲ)}SMM compounds allowing for the study of the effect that the subtle changes in structure have on the SMM properties.Ab initio calculations are performed on 3–5,as well as on the related structural derivatives in order to gain insight on the effect the structural changes have on the dynamic magnetic behaviour.展开更多
基金supported by the Taishan Scholar Program,Qingdao Natural Science Foundation(25-1-1-168-zyyd-jch)111 Project of China(D20017).
文摘The performance of Single-Molecule Magnets(SMMs)can be enhanced by reducing quantum tunneling of magnetization(QTM),which can be achieved with the aid of strong magnetic exchange interactions and strong magnetic anisotropy.When 4d ions are mixed with 4f ions,the strong spin–orbit coupling and moderate ligand-field strength of 4d elements complement the highly anisotropic 4f ions,and the combined effect decreases the transverse anisotropy and stabilizes the magnetic easy axis,both of which are essential for lowering QTM.Despite their synthetic challenges,the unique electronic properties of 4d–4f systems make them promising candidates for designing advanced single-molecule magnets.Here,we report the synthesis,magnetic,and theoretical studies of five tetranuclear“butterfly-shaped”complexes of formulae[Ru^(Ⅲ)_(2)Ln^(Ⅲ)_(2)(OMe)_(2)(o-tol)_(4)(mdea)_(2)(NO_(3))_(2)](Ln=Gd(1-Gd),Tb(2-Tb),Dy(3-Dy),Ho(4-Ho),mdeaH2=N-methyldiethanolamine)and[Ru^(Ⅲ)_(2)Er^(Ⅲ)_(2)(OMe)_(2)(o-tol)6(mdea)_(2)]·2MeOH(5-Er).Complexes 2-Tb,4-Ho,and 5-Er are the first reported examples of Ru-4f complexes using these Ln^(Ⅲ)ions.DC magnetic susceptibility studies revealed an antiferromagnetic exchange interaction between the Ln^(Ⅲ)and Ru^(Ⅲ)metal ions in all complexes.Among the complexes reported,3-Dy and 4-Ho show out-of-phase susceptibility signals in the absence of an external magnetic field,while the remaining complexes exhibit field-induced slow relaxation of magnetization.These observations were attributed to the presence of an ideal crystal field combined with the strong exchange interaction exerted between the Ru^(Ⅲ)and Ln^(Ⅲ)ions in the complexes.Importantly,the 4-Ho is the first non-dysprosium Ru–Ln polynuclear complex to show zero-field SMM behavior.Detailed ab initio CASSCF+RASSI-SO+SINGLE_ANISO+POLY_ANISO and Density Functional Theory(DFT)calculations reveal that the magnitude of exchange interaction increases in the following order:1-Gd(−1.3 cm^(−1))<2-Tb(−1.8 cm^(−1))<3-Dy(−2.7 cm^(−1))<4-Ho(−2.8 cm^(−1))<5-Er(−4.0 cm^(−1)).The larger single-ion anisotropy of the DyⅢions in 3-Dy leads to the largest barrier of 101.8 cm^(−1)(146 K),which increases further to 111 cm^(−1)(158.7 K)when considering the exchange-coupled model,with the strong Ru⋯Ln exchange further quenching QTM effects.These results highlight the importance of strong magnetic exchange between 4d–4f(Ru^(Ⅲ)⋯Ln^(Ⅲ))ions in enhancing the SMM behavior of 4d–4f complexes.
文摘The synthesis of three new tetranuclear heterometallic Co^(Ⅲ)–Dy^(Ⅲ)planar butterfly coordination complexes is reported of molecular formulae[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(teaH)_(2)(acac)_(6)]·MeCN(3),[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(bdea)_(2)(acac)_(6)]·2H_(2)O(4)and[Dy_(2)^(Ⅲ)Co_(2)^(Ⅲ)(OH)_(2)(edea)_(2)(acac)_(6)]·2H_(2)O·4MeCN(5)(teaH_(3)=triethanolamine,bdeaH_(2)=N-n-butyldiethanolamine,edeaH_(2)=N-ethyldiethanolamine and acacH=acetylacetone)each of which display singlemolecule magnet(SMM)behaviour.Importantly these new compounds are related to several{Co_(2)^(Ⅲ)Dy_(2)^(Ⅲ)}SMM compounds allowing for the study of the effect that the subtle changes in structure have on the SMM properties.Ab initio calculations are performed on 3–5,as well as on the related structural derivatives in order to gain insight on the effect the structural changes have on the dynamic magnetic behaviour.
